SU1631496A1 - Optical displacement sensor - Google Patents

Abstract

The invention relates to optical fibers and can be used to measure the parameters of moving objects. The purpose of the invention is to improve the measurement accuracy by eliminating the influence of the reflection coefficient of the surface of the measurement object. The radiation from the radiation source 1 enters the input light guide 2 and is directed to the object of measurement. Reflecting from the object, the radiation falls on the common end of the feed fiber 2 and the two tail light guides 3 and 4. The optical fibers of the light guides on the common end are stacked regularly. Passing through the outgoing fibers 3 and 4, the radiation enters the optical receivers 5 and 6. The ratio of the intensity of the radiation in the outgoing fibers 3 and 4 made of optical fibers with different optical or geometrical parameters is determined only by the distance from the common end to the object of measurement and does not depend on the variation of the reflection coefficient of the surface of the object of measurement. 2 Il.

Description

Phage.1

The invention relates to optical fibers and can be used to measure the parameters of moving objects.

The purpose of the invention is to improve the measurement accuracy by eliminating the effect of variation in the reflection coefficient of the surface of the measurement object.

FIG. 1 shows the functional diagram of the sensor; in fig. 2 shows the arrangement of the leading, first and second ejection fibers at the common end of the optical fiber bundle.

The sensor (Fig. 1) contains a radiation source 1 supplying a light guide 2. a discharge light guide 3 and A made of optical fibers with different optical or geometrical parameters, radiation receivers 5 and 6, and recording devices 7 and 8.

The device works as follows.

The radiation flux from the radiation source 1 enters the supply fiber 2, passes through it and falls on the object. Reflecting from the object, the radiation falls on the common end of the inlet fiber and the two outgoing fibers. Optical fibers of optical fibers on a common end face are laid regularly, and the outgoing optical fibers are made of optical fibers with different optical fibers.

geometric or geometric parameters. As a result, radiation of varying intensity after reflection from an object enters the diverting light guides 3 and 4, and the ratio of these intensities depends only on the distance between the object of measurement and the common end of the optical fibers. The passage through the diverting light guides 3 and 4 radiation enters the receivers 5 and 6 of the radiation, the electrical signal from which is recorded by the recording devices 7 and 8.

Claims (1)

An optical displacement sensor comprising a radiation source optically coupled to an optical fiber, two radiation receivers optically coupled to two tail light guides, and two recording units, the inputs of which are connected respectively to the outputs of the radiation receivers, while the optical fibers have one a common end, characterized in that, in order to increase the measurement accuracy by eliminating the influence of the variation in the reflection coefficient of the object, the two output fibers are made of optical fibers n with different optical or geometrical parameters, while the common end of the optical fibers of the optical fibers are laid regularly.